Electrode potential for Mg electrode varies according to the equation `E_(Mg^(2+)IMg=E_(Mg^(2+)Img)^@-(0.059)/2 log1/([Mg^(2+))]` The graph `E_(Mg^(2+)Img) Vslog[Mg^(2+)] is

Formulate a cell for each of the following reactions:- Mg(s) + Br_2(l)rarr Mg^(2+)(aq),+ 2Br^-(aq)

The solution of the differential equation x(e^(2y)-1)dy+(x^2-1)e^y dx=0 is

The solution of the differential equation x(e^(2y)-1)dy + (x^2-1) e^y dx=0 is

Formulate a cell from the following electrode reactions: Au^(3o+) (aq) + 3e^(Theta)rarr Au(s) Mg(s)rarr Mg^(2o+) (aq) + 2e^(Theta) .

Standard reduction potential values for the electrodes are given below. Mg^(2+)2e^(-) rarrMg " is" -2.37V Zn^(2+) +2e^(-) rarrZn " is"-0.76V Fe^(2+)+2e^(-)rarrFe " is"-0.44V Which of the following statement is correct

Balance the following chemical equations: Mg(OH)_(2(s))+HCl_((aq))rarrH_(2)O_((l))+MgCl_(2(aq))

Construct a galvanic cell from the electrodes Co^(3o+)|Co and Mn^(2o+)|Mn. E_(Co)^0 =1.82 V .

The standard potential for the cell reaction 2Ti_((S)) + Hg^(2+) (1M) rarr 2Ti^+ (1 M) + Hg_((I)) Where E_(Ti)^@ =- 0.34V, E_(Hg)^@ = 0.86 V is

Write the Nernst equation and emf of the following cells at 298K. Mg_((s))| Mg_(aq)^(2+)(0.001M)| Cu_((s)) (Given E_(Mg^(2+)//Mg)^@ = -2.37 V, E_(Cu^(2+) //Cu)^@=0.34V)

Formulate a cell from the following electrode reactions Au^(3o+) (aq) + 3e^(o-)rarrAu(s) Mg(s)rarr Mg^(2o+) (aq) + 2e^(o-)